theoretically dry

简明释义

绝对干的

英英释义

例句

1.The engineer explained that the material is theoretically dry 理论上是干燥的 after processing, but environmental factors can affect this.

工程师解释说，这种材料在加工后是理论上是干燥的，但环境因素会影响这一点。

2.According to the guidelines, the area should be theoretically dry 理论上是干燥的 before applying the sealant.

根据指导方针，在涂抹密封剂之前，该区域应该是理论上是干燥的。

3.In a lab experiment, the substance was supposed to be theoretically dry 理论上是干燥的, but it still had some moisture.

在实验室实验中，这种物质应该是理论上是干燥的，但它仍然有一些水分。

4.The report stated that the paint would be theoretically dry 理论上是干燥的 in two hours, but I found it still tacky.

报告指出，油漆将在两个小时内理论上是干燥的，但我发现它仍然是粘性的。

5.The scientist noted that the sample was theoretically dry 理论上是干燥的, yet it absorbed moisture from the air.

科学家指出，样本是理论上是干燥的，但它却从空气中吸收了水分。

作文

In the realm of scientific exploration, the term theoretically dry refers to a condition or state that is predicted based on scientific principles but may not necessarily be observed in practical scenarios. This concept can be particularly relevant in fields such as meteorology, physics, and environmental science. For example, when scientists predict weather patterns, they often use models that suggest certain areas will remain theoretically dry during specific periods. However, these predictions can be influenced by numerous variables, including unexpected changes in atmospheric conditions. Thus, while the theory suggests dryness, reality can differ significantly. This discrepancy between theoretical predictions and actual outcomes highlights the importance of empirical data in validating scientific theories. In many cases, what is theoretically dry may not hold true when we consider the complexities of real-world environments. For instance, a region might be classified as theoretically dry due to its geographical location and historical climate data, yet it could experience sudden rainfall due to localized weather phenomena. Moreover, the concept of theoretically dry can also extend beyond meteorology into other scientific disciplines. In physics, for example, certain models may predict that a substance will remain in a solid state under specific conditions, suggesting it is theoretically dry. However, when subjected to real-world conditions, impurities or temperature fluctuations can cause the substance to behave differently than expected. The implications of theoretically dry scenarios are significant in research and development. Engineers and scientists must consider these theoretical predictions when designing systems or conducting experiments. For instance, when developing new materials, researchers might rely on theoretical models to predict how a material will perform. If a material is deemed theoretically dry, it might be expected to have certain properties, such as low moisture absorption. However, if the material is tested in real-world conditions and absorbs moisture unexpectedly, this could lead to failures in applications where moisture control is critical. In conclusion, the term theoretically dry serves as a reminder of the distinction between scientific theory and practical application. While theoretical models provide valuable insights and predictions, they must be validated through experimentation and observation. Scientists and engineers must remain vigilant in recognizing the limitations of their theoretical frameworks and be prepared to adapt their understanding based on empirical evidence. Ultimately, the interplay between theory and practice enriches our knowledge and drives innovation in various fields.

在科学探索的领域中，术语理论上干燥指的是一种基于科学原理的预测状态或条件，但在实际场景中可能并不一定会被观察到。这个概念在气象学、物理学和环境科学等领域尤其相关。例如，当科学家预测天气模式时，他们经常使用模型来建议特定区域在特定时期将保持理论上干燥。然而，这些预测可能会受到许多变量的影响，包括大气条件的意外变化。因此，尽管理论上建议干燥，现实情况可能会有显著差异。这种理论预测与实际结果之间的差异突显了实证数据在验证科学理论中的重要性。在许多情况下，理论上干燥的东西在考虑到现实世界环境的复杂性时，可能并不成立。例如，一个地区可能由于其地理位置和历史气候数据而被归类为理论上干燥，但由于局部天气现象，它可能会突然降雨。此外，理论上干燥的概念也可以扩展到其他科学学科。在物理学中，例如，某些模型可能预测在特定条件下某种物质将保持固态，这表明它是理论上干燥的。然而，当在现实条件下测试该物质时，杂质或温度波动可能会导致该物质的行为与预期不同。理论上干燥情境的影响在研究和开发中是显著的。工程师和科学家在设计系统或进行实验时必须考虑这些理论预测。例如，在开发新材料时，研究人员可能依赖理论模型来预测材料的性能。如果某种材料被认为是理论上干燥的，则预计它会具有某些特性，例如低水分吸收。然而，如果在现实条件下测试该材料并意外吸收水分，这可能会导致在水分控制至关重要的应用中出现故障。总之，术语理论上干燥提醒我们科学理论与实际应用之间的区别。虽然理论模型提供了有价值的见解和预测，但必须通过实验和观察来验证。科学家和工程师必须保持警惕，认识到他们理论框架的局限性，并准备根据实证证据调整他们的理解。最终，理论与实践之间的相互作用丰富了我们的知识，并推动了各个领域的创新。